February Volume 1, No-1

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Q1
and reviews
reviews
Q1 technology
technology news and
Q1 technology news and reviews
Volume 1, No. 1, February 2024
Chief editor
S. G. Ahmed
Professor of Computational Mathematics and Numerical Analysis Faculty
ofEngineering, Zagazig University, Zagazig, Egypt, P. O. Box 44519

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February Volume 1, No-1

CHIEF EDITOR
S.G. Ahmed
Professor of Computational Mathematics and Numerical Analysis Faculty
ofEngineering, Zagazig University, Zagazig, Egypt, P. O. Box 44519

EDITORIAL BOARD
Yu Li
Wuhan University of
Technology,China
Seung Man Yu
Seoul National University of Science
andTechnology, South Korea
Seyed Saeid Rahimian Koloor
Universiti Teknologi Malaysia,
Malaysia
Eko Susanto
Menegment of journal Indonesia
Siti Mazlina Mustapa Kamal
Universiti Putra Malaysia, Malaysia

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Q1 technology news and reviews
ANALYSIS OF ANGULAR VELOCITIES OF BELT CONVEYOR DRUMS
AND CONVEYOR LOAD CHANGE DEPENDENCE ON TECHNOLOGICAL
RESISTANCE
Jumaev Akbarjon Sayfullaevich
Almalyk branch of Tashkent State Technical University
named after Islam Karimov
Doctor of Philosophy in Technical Sciences (PhD), Associate Professor
akbarjon.jumaev@mail.ru
Ashirov Alisher Abdujapparovich
Almalyk branch of Tashkent State Technical University
named after Islam Karimov
Assistant
@ashirovalisher6284
Ibragimova Nodira Ilkhomovna
Almalyk branch of Tashkent State Technical University
named after Islam Karimov
Assistant
mahliyoturdaliyeva@gmail.com
Abstract. The article presents ideas about the reliability and durability of belt conveyors
in mining enterprises today, as well as the constantly increasing requirements for equipment.
Graphs of the dependence of the angular speeds of the recommended belt conveyor drums
and the change of the driver load on the technological resistance and the resistance moment
of the friction force and the torque of the friction force are given and their recommended
values are given. According to this, the analysis of scientific studies has been carried out
that when bushings with belt elements are used in drums, it is possible to increase the UVK
compared to the traditional one due to the reduction of the amplitude of vibrations in it.
Keywords. Conveyor, drum. belt element, deformation, loading, transportation, amplitude,
vibration, technology.
Today, belt conveyors are considered as a means of transport for the continuous
supply of minerals in mining enterprises, modeling their activity taking into account
economic efficiency indicators, studying the influence of parameters of open and closed
quarries on the choice of technological schemes for the transportation of minerals.
scientific research is being carried out. In this regard, one of the urgent tasks is to
determine the optimal area of application of the technological schemes of transportation
of mining mass using belt conveyors in the organization of continuous transportation of
mineral resources in the horizons of deep pits, and to develop the optimal technological
scheme of transportation of mining mass in the further development of deep quarries.
If mineral resources are mined from open quarries, when the depth of the quarry is
more than 600 meters, the maximum movement volume of mineral extraction mass
during one year and their transportation work will increase significantly. In this situation,
the cost of transportation will be 60% and more as the quarry depth increases. For this
reason, additional studies were conducted to determine the patterns of impact of the
volumes of rocks extracted from the quarry on the mining machines. As a result, the main
parameters of the quarry were selected for conducting scientific research, and belt
conveyors were organized depending on the weight of the rocks and the depth of the
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February Volume 1, No-1
quarry, which would allow the selection of transport machines for deep quarries [1, 2].
In theoretical research, it is important to study the law of motion of belt conveyor
drums, to determine the limits of angular velocity changes, to recommend optimal
values as a result of studying the effects of loading and changes in the dissi pativecohesion characteristics of the belt, technological resistance and inertial parameters on
the law of motion [3, 4].
Fig. 1 shows graphs of dependence of the angular speeds of the leading and driven
drums with the belt element of the proposed belt conveyor bearing and the change of
the driver load on the technological resistance and the resistance torque of the friction
force.

where, 1 – ̇ 1 = f (Mres); 2 – ̇ 2 = f (Mres); 3.4 – Menj = f (Mres);
3 – Mfric = 43 Nm; 4 – Mfric = 26 Nm.
Figure 1. Graphs of angular velocities and conveyor load variations of the leading and
driven drums with a belt element of the proposed belt conveyor bearing support and
technological resistance dependence graphs
Based on the graphical connections, when the values of Mres change from 0.15ꞏ102 Nm to
1.5ꞏ102 Nm, the torque on the drive shaft increases from 0.17ꞏ102 Nm to 0.86ꞏ102 Nm, while the
torque of the friction forces increases from 0.11ꞏ102 Nm It can be seen that it reaches 0.41ꞏ102 Nm.
It can be seen that the difference between the angular velocities of the drums decreases as the
technological resistance increases. The main reason for this is that even if the deformation values
of the belt are large under a large load, the change intervals are small. In particular, it can be seen
from the equation that when the values of Mres increase from 0.2ꞏ102 Nm to 1.5ꞏ102 Nm, the values
decrease linearly from 0.305ꞏ102 s-1 to 0.274ꞏ102 s-1, and the angular velocity of the leading drum
decreases from 0.283ꞏ102 s-1 to 0.256ꞏ102 s-1 can be determined. The difference between the
angular velocities, as we noted above, occurs due to the rotation of the conveyor belt, due to the
change in friction, due to a sufficient level of sliding. It should be noted that the reduction of belt
vibrations at the expense of the composite roller shock absorber also leads to a reduction of the
angular speed fluctuations of the drums. However, by ensuring that the belt vibrates at the required
level, it causes the transported ore to be level. Therefore, it is recommended to achieve the values
of technological resistance (1.3 ÷ 1.6) 102 Nm from, and the torque of friction force does not exceed
(35 ÷ 40) Nm.

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Q1 technology news and reviews

where, 1, 2 – ∆ ̇ 2 = f (Mres); 3, 4 – ∆ ̇ 2 = f (Mres); 1, 3 – c2 = 380 Nm/rad;
2, 4 – c2 = 260 Nm/rad
Figure 2. Graphs of dependence of angular speeds of belt conveyor drums on
technological resistance
Figure 2 shows graphs of dependence of belt conveyor drums angular velocities, vibration
range, technological resistance and friction moment. In this case, when the technological resistance
and Mres incoming resistance increase from 0.25ꞏ102 Nm to 1.98ꞏ102 Nm, the angular velocity of
the driving drum increases in a non-linear pattern from 0.46 s–1 to 2.95 s–1 when the vibration range
is c2 = 260 Nm/rad. can be achieved (Fig. 2, graph 4). Correspondingly, when the rotational speed
coefficient of the conveyor belt increases to 320 Nm/rad, the range of oscillation of the angular
velocity of the driving drum increases from 0.42 s–1 to 2.19 s–1, and the values of ∆ ̇ 1 only increase
to 1.11 s–1. In this case, the maximum difference between ∆ ̇ 1 and ∆ ̇ 2 reaches (1.0 ÷ 1.25) s–1
when Mres + Mfric = 2.0ꞏ102 Nm (Fig. 2, graphs 2, 4). According to the results of experimental
studies, to ensure that the angular velocity of the driving drum is within the range of ∆ ̇ 2 ≤ (0.21
÷ 0.25) 10 s–1, c2 ≤ (260 ÷ 300) Nm/rad coming from the transported ore and it is recommended
that the torque of the friction force should be in the range of technological resistance Mres + Mfric
= (1.3 ÷ 1.6) Nm. As mentioned above, increasing the speed of belt rotation causes the angular
velocities of the drums to converge and decrease ∆ ̇ 1 and ∆ ̇ 2 .
Figure 3 shows graphs of the dependence of the angular speed of the belt conveyor drums on
the vibration range and the load on the conveyor on the changes in the moments of inertia of the
drums.

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February Volume 1, No-1

1 – ∆ ̇ 1 = f (Jd1); 1 – ∆ ̇ 1 = f (Jd2); 3, 4 – Mener = f (Jd1);
3 – Mres+Mfric = 0.75ꞏ102 Nm; 4 – Mres+Mfric = 1.25ꞏ102 Nm
Figure 3. Graphs of the dependence of the angular speed of the belt conveyor drums, the
vibration range and the load change on the conveyor on the change of the moments of
inertia of the drums
It is known that with the increase of moments of inertia in rotating joints, the motion becomes
smooth. Therefore, in order to obtain the angular velocity unevenness coefficient within the desired
limit, the moment of inertia values are chosen accordingly. It can be seen that when the moment
of inertia values of belt conveyor drums are increased from 0.32 kgm2 to 0.45 kgm2, the values of
∆ ̇ 1 decrease nonlinearly from 2.12 s–1 to 0.36 s–1, and the angular velocity of the driving drum
decreases from 2.9 s–1 to 0.82 s–1 can be seen (Fig. 3, graphs 1, 2). In order to keep ∆ ̇ 2 in the
desired range, it is recommended that Jb1 = (0.45 ÷ 0.52) kgm2 and Jb2 = (0.42 ÷ 0.45) kgm2. It
should be noted that as the moment of inertia of the drums increases, the load on the electric
conductor also increases. For example, when Jb1 = Jb2 = 0.45 kgm2 increases to Mres = 1.25ꞏ102
Nm, it can be seen that Mener values increase from 0.46ꞏ102 Nm to 0.83ꞏ102 Nm, i.e. up to two
times. Therefore, the moment of inertia of drums is limited.
Summary. In order to ensure uniform distribution of transported ore on the basis of vibrations
of the belt, it is recommended to achieve values of technological resistance and friction moment
not exceeding (1.3 ÷ 1.7) 102 N. The effect of technological resistance and friction torque on the
variation of the angular speed of the belt conveyor drums on the variation of the vibration range
was studied, the angular speed of the leading drum was determined to be in the range of ∆ ̇ 2 ≤
(0.21 ÷ 0.25) 10 s–1 to ensure c2 ≤ (0.21 ÷ 0.25) Nm/rad, the formula for determining the
technological and friction torque coming from the transported ore was obtained. In this case, it
was found that the torque of the friction forces decreases due to the deformation of the rubber
bushing.

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Q1 technology news and reviews
References
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